EP1468856A2

EP1468856A2 - Open roof construction for a vehicle

Info

Publication number: EP1468856A2
Application number: EP04102583A
Authority: EP
Inventors: Peter Christiaan Leonardus Johannes Manders
Original assignee: Inalfa Roof Systems Group BV
Current assignee: Inalfa Roof Systems Group BV
Priority date: 1999-07-20
Filing date: 2000-06-28
Publication date: 2004-10-20
Anticipated expiration: 2020-06-28
Also published as: JP4741059B2; EP1468856B1; EP1070616A1; EP1070616B1; DE60029491T2; DE60011522T2; JP4741708B2; JP2010179919A; DE60029491D1; NL1012645C2; JP2001047866A; EP1468856A3; DE60011522D1; US6394540B1

Abstract

An open roof construction for a vehicle having an opening (2) in its fixed roof (1) comprises a frame to be fixed to the roof, which includes at least one guide rail (6) extending in the longitudinal direction of the open roof construction. A closure element (3) supported by the frame is adjustable between a closed position, in which it closes the roof opening, and an open position, in which it releases the roof opening at least partially. An operating mechanism (4) for adjustably supporting said closure element includes a slide (5) which is capable of sliding movement in said guide rail by means of sliding shoes (10) and which is of U-shaped cross-section. The slide includes sliding members (23, 24) separately from the sliding shoes (10), which sliding members provide guidance of the slide (5) transversely to the guide rail (6) and which abut against opposite flanges (26, 27) of the guide rail.

Description

The invention relates to an open roof construction for a vehicle according to the preamble of claim 1

An open roof construction of this kind is described in Dutch patent application No. 1009773, for example.

The object of the present invention is to provide an improved open roof construction of the type referred to in the introduction.

According to a first aspect of the invention, the vertical walls of the U-shaped slide include sliding members of plastic material, which mate with, preferably, the edges of associated horizontal flanges of the guide rail. Preferably, the sliding members are spaced from the connecting web of the U-shaped slide, whilst the sliding members advantageously mate with the edges of the at least substantially horizontal flanges of the guide rail in the form of an extruded section that project furthest inwards.

According to the invention, the dimensions of the slide in transverse direction are selected so that the distance between the sliding surfaces of the sliding members is slightly larger than the distance between the opposite flanges of the guide rail. In this manner the sliding members will fit between said flanges of the guide rail without play. Especially if the sliding members mate with an edge of the flanges, the sliding members will wear quickly to such a degree that they will guide the slide in lateral direction without any play. When the sliding members are disposed some distance away from the connecting webs of the U-shaped slide, the vertical walls of the slide can be pressed slightly together upon being introduced into the guide rail, so that the sliding members can be placed between the flanges of the guide rail with some bias. When the sliding members are formed relatively high on the vertical walls, they will also prevent the vertical walls from bending outwards, for example in the case of outward bending forces which can develop as a result of attempts to break into the vehicle by prizing open the closure element. Thus, the sliding members contribute towards the stability and the resistance to burglary of the operating mechanism.

The invention will be explained in more detail hereafter with reference to the drawings, which schematically show an exemplary embodiment of the open roof construction according to the invention.

Fig. 1 is a longitudinal sectional view of the embodiment of the open roof construction according to the invention, showing the closure element in an open ventilating position.

Fig. 2 is a larger-scale perspective view of an operating mechanism on one side of the open roof construction of Fig. 1, showing the closure element in the closed position.

Fig. 3 is a perspective, exploded view of the operating mechanism of Fig. 2.

Figs. 4 and 5 are larger-scale sectional views along lines IV-IV and V-V, respectively, in Fig. 1, wherein the closure element is shown in the closed position, however.

The drawings show a fixed roof 1 of a vehicle, such as a passenger car, which is provided with a roof opening 2 for receiving an open roof construction. The open roof construction includes a closure element 3 for selectively closing or at least partially releasing the roof opening 2. In this embodiment the closure element 3 is a rigid panel, in particular a transparent panel of glass or plastic material, but also other closure elements such as slats or a flexible cover are conceivable. In the illustrated embodiment a sliding-tilt roof is used, wherein panel 3 can be moved from the closed position in roof opening 2 (Figs. 4, 5), on the one hand to an upwardly and rearwardly sloping ventilating position (Fig. 1) and on the other hand downwards (Fig. 5) and subsequently rearwards to a position under the fixed roof 1. Also other embodiments are possible, however.

In order to enable the movements of panel 3, panel 3 is fitted with an operating mechanism 4 at both edges extending in the longitudinal direction of the open roof construction, which operating mechanisms each include a link slide 5 in this embodiment, which is slidably accommodated in a guideway of a guide rail 6. Said guide rail 6 is mounted on or forms part of a stationary part (not shown), for example a frame, which is attached to the fixed roof 1 of the vehicle. The guide rails 6 extend along the longitudinally extending edges of the roof opening 2 and possibly rearwards thereof.

Part of the operating mechanism 4 is made up of a link 7, which is attached to the underside of panel 3, near the respective longitudinal edge, and that to a stiffening frame 8 thereof. At its front end link 7 is fitted with a sliding shoe 9, which is slidably accommodated in associated grooves in guide rail 6, and which also functions as the front hinge for panel 3. Link slide 5 comprises two pairs of sliding shoes 10, which project laterally and which guide link slide 5 upon its movement in vertical direction in guide rail 6.

Both link slide 5 and link plate 7 include guideways in the form of laterally projecting

ribs

11, 12, wherein ribs 11 are formed on the lower edge of link plate 7 and extend away from each other, whilst ribs 12 are formed on the upper side of

vertical walls

13, 14 of the link slide and extend towards each other. A guide head 15 is in engagement with all

ribs

11 and 12, and to that end it engages between the

vertical walls

13, 14 of link slide 5 and round link plate 7.

Guide head 15 is formed on the free end of an arm 16, which is pivotally connected, via a pivot 17, to a driving slide 28 (Fig. 1), which is drivingly connected to a drive unit, such as an electric motor, a hand crank or the like, via driving cables (not shown) or the like. By moving the guide head 15, which acts as a wedge between link slide 5 and link plate 7, with respect to

guideways

11, 12, link plate 7 and thus panel 3 will be pivoted about pivot 9. Link slide 5 is stationary during said pivoting. In the lower pivoted position of panel 3 the driving slide is locked in position with respect to link slide 5, after which the entire operating mechanism 4 and panel 3 will move rearwards as one unit upon further rearward movement of the driving slide.

Figs. 3, 4 and 5 show the construction of the link slide 5 more clearly. Link slide 5 is formed of sheet metal, in this case by cutting and bending. In the illustrated embodiment the link slide is formed of two sheet metal parts, which each comprise the associated

vertical wall

13 and 14, respectively, on the lower side of each of which two pairs of

lips

18, 19 and 20, 21, respectively, are formed. Fig. 4 is a sectional view of

front lips

18, 20, whilst Fig. 5 is a sectional view of

rear lips

19, 21. As is shown in the figures, the front lip 20 present on vertical wall 14 is positioned on the front lip 18 on wall 13 and it is attached thereto, for example by means of an embossing rivet 22. In the situation which is shown in Fig. 5 this is exactly the reverse: the rear lip 19 present on wall 13 is positioned on the rear lip 21 on wall 14. At the location of the lips the parts of the link slide 5 are L-shaped in section, with the

vertical walls

13, 14 an lips 18 - 20 functioning as legs of the L, whilst the parts together define a U-shaped section of slide 5 at the location of lips 18 - 21, wherein the lips form the connecting web and

vertical walls

13, 14 form the legs of said U.

In Figs. 4 and 5 the front lip 18 of wall 13 and the rear lip 19 of wall 13 are shown to be staggered in vertical direction, in this case by a distance equal to the thickness of the material of the lips. As a result, also the bending lines of

lips

18, 19 will be staggered and not be in alignment, therefore, so that the vertical wall 13 does not have a common bending line with the web of the U-section, as a result of which the resistance to bending of the vertical wall 13 is considerably increased and a stable construction is provided. The same holds for the

lips

20, 21 of wall 14, which are staggered in exactly the opposite direction.

As is furthermore shown in Figs. 2, 3 and 5, the

vertical walls

13, 14 of link slide 5 include sliding

members

23, 24, in this case consisting of sliding studs which have been formed thereon by injection moulding and which are anchored in holes 25 in

vertical walls

13, 14. Preferably, the

sliding studs

23, 24 are formed on the respective part of the link slide 5 together with rib 12 and sliding shoes 10. The front sliding studs 23 are positioned above the front sliding shoes 10 on link slide 5, whilst the rear sliding studs 24 are positioned at the location of the part of ribs 12 where guide head 15 is present in the closed position of panel 3. The

sliding studs

23, 24 are formed on

vertical walls

13, 14 some distance above lips 18 - 21 of U-shaped link slide 5, they mate with the inner edges of facing

horizontal flanges

26 and 27, respectively, of the guide rail 6, which is in the form of an extruded section. Sliding

studs

23, 24, together with

flanges

26, 27, provide the lateral guidance of the link slide 5 in guide rail 6. Said lateral guidance takes place separately from the vertical guidance by the sliding shoes 10 of link slide 5, therefore.

The above-described construction of link slide 5 has several advantages. Upon manufacture of link slide 5, the parts of which it is formed must be bent over so as to bend lips 18 - 21 with respect to

walls

13, 14. Said bending over will generally take place with a tolerance such that the angle between the lips and the associated walls will be 90° or larger at all times. The

vertical walls

13, 14 are inclined outwards to a very small degree, therefore. The dimension of the

sliding studs

24, 25 is thereby such that in the eventual form of the link slide 5 the distance between the outside of the opposite

sliding studs

23 and 24, respectively, will be slightly larger at all times than the distance between the opposite inner edges of

flanges

26, 27. Said distance between the inner edges of

flanges

26, 27 is a dimension with a very small tolerance, since it is an inside dimension of the section without additional tolerances. When slide 5 is being mounted in guide rail 6, the

vertical walls

13, 14 will be pressed together slightly, as a result of which the

sliding studs

23, 24 will be slightly biased against the edges of

flanges

26, 27. The

sliding studs

23, 24 will wear quickly as link slide 5 makes its first movements in guide rail 6, until said bias has disappeared, after which slide 5 will be capable of sliding movement in guide rail 6 without any lateral play. When the bias between the

sliding studs

23, 24 and the

flanges

26, 27 has disappeared, there will no longer be any wear on sliding

studs

23, 24. The narrow surface of the edges of

flanges

26, 27 is conducive to the process of the

sliding studs

23, 24 wearing to the correct dimension.

The sliding studs, and in particular the sliding studs 24, furthermore provide increased resistance of the

walls

13, 14 of the curve slide to bending outwards, for example when an attempt is made to break into the vehicle, whereby it is attempted to prize open panel 3. The guide head 15 must be pulled up out of the slide in that case, and to that end the

vertical walls

13, 14 must be bent outwards. The sliding studs, which are positioned at the location of guide head 15 in the closed position of panel 3, prevent the vertical walls from bending outwards in that they abut against

flanges

26, 27.

From the foregoing it will be apparent that the invention provides an open roof construction for a vehicle which is remarkable for the strong, stable construction of its operating mechanism, which can move precisely and without any play.

The invention is not restricted to the above-described embodiment as shown in the drawing, which can be varied in several ways without departing from the scope of the invention. Thus the lips of the parts of the U-shaped slide could also fit together via a form lock in the same plane, after which they are fixed together, for example by deformation of said form lock. The bending lines will not be staggered in all cases, and only one lip may be provided. The advantage of such a dual construction is that, as in the illustrated embodiment, it is possible to use parts formed by injection moulding, which injection moulding can take place after bending of the parts, but before said parts are connected together.

Claims

An open roof construction for a vehicle having an opening (2) in its fixed roof (1), comprising a stationary part to be fixed to the roof, which includes at least one guide rail (6) extending in the longitudinal direction of the open roof construction, an adjustable closure element (3) supported by said stationary part, which is adjustable between a closed position, in which it closes the roof opening, and an open position, in which it releases the roof opening at least partially, as well as an operating mechanism (4) for adjustably supporting said closure element, which operating mechanism includes a slide (5) which is capable of sliding movement in said guide rail by means of sliding shoes (10) for guiding the slide in vertical direction, characterized in that said slide includes sliding members (23, 24) separately from said sliding shoes (10), which sliding members provide guidance of the slide (5) transversely to the guide rail (6) and which abut against opposite flanges (26, 27) of the guide rail.
An open roof construction according to claim 1, wherein the sliding members (23, 24) mate with the edges of the at least substantially horizontal flanges (26, 27) of the guide rail (6) in the form of an extruded section that project furthest inwards.
An open roof construction according to claim 1 or 2, wherein said slide (5) includes two vertical walls (13, 14) which are spaced apart in transverse direction, which walls are interconnected by a connecting web (18 - 21), and wherein the sliding members (23, 24) are disposed on the slide (5) some vertical distance apart from the connecting web (18 - 21).
An open roof construction according to any one of the claims 1 - 3, wherein the sliding shoes (10) and the sliding members (23, 24) have been formed on the metal slide (5) in one operation by injection moulding.
An open roof construction according to any one of the claims 1 - 4, wherein the sliding members (23, 24) are sliding studs, which are preferably anchored in holes (25) through the slide.
An open roof construction for a vehicle having an opening (2) in its fixed roof (1), comprising a stationary part to be fixed to the roof, which includes at least one guide rail (6) extending in the longitudinal direction of the open roof construction, an adjustable closure element (3) supported by said stationary part, which is adjustable between a closed position, in which it closes the roof opening, and an open position, in which it releases the roof opening at least partially, as well as an operating mechanism (4) for adjustably supporting said closure element, which operating mechanism includes a slide (5) which is capable of sliding movement in said guide rail (6) and which is of U-shaped cross-section, at least locally, with vertical walls (13, 14), characterized in that the vertical walls (13, 14) of the U-shaped slide (5) include sliding members (23, 24) of plastic material, which mate with, preferably, the edge of associated horizontal flanges (26, 27) of the guide rail (6).
An open roof construction according to claim 6, wherein said slide (5) is formed of two interconnected parts, wherein each part is at least partially L-shaped in section, comprising an at least substantially horizontal connecting lip and a vertical wall, with the connecting lips of the two parts being interconnected.